Survival of F2 transgenic common carp (Cyprinus carpio) containing pRSVrtGH1 complementary DNA when subjected to low dissolved oxygen.

Abstract

The survival and tolerance of F2 transgenic common carp (Cyprinus carpio) containing pRSVrtGH1 complementary DNA were compared with nontransgenic (control) common carp when subjected to low dissolved oxygen. The tolerance of low oxygen was evaluated in 8 families of common carp in rectangular tanks (3 x 1 x 1 m). The absolute mean percentage of survival of transgenic common carp subjected to low oxygen (0.4 mg/L) was higher (P <0.05) than that of control carp in 2 of the 8 families of common carp tested; however, the overall means for all families of transgenic and control carp were not different (P > 0.05). When oxygen tolerance was measured in time to death rather than absolute survival or mortality, the growth hormone transgenic common carp had a longer group mean (P <0.05) than did controls. The mean survival time in minutes for the transgenic genotype was greater (P <0.05) in 5 of the 8 families assessed. Transgenic common carp in some families had higher percentage and longer times of survival than control common carp when subjected to low oxygen. The definition of tolerance of low oxygen and how it is measured is important, and can affect interpretation of results. The pleiotropic effect of pRSVrtGH1 cDNA on superior survival of low oxygen in common carp has important implications for intensive fish culture.